-
[
Nat Neurosci,
2012]
Dendrites from a single neuron may be highly branched but typically do not overlap. Self-avoidance behavior has been shown to depend on cell-specific membrane proteins that trigger mutual repulsion. Here we report the unexpected discovery that a diffusible cue, the axon guidance protein UNC-6 (Netrin), is required for self-avoidance of sister dendrites from the PVD nociceptive neuron in Caenorhabditis elegans. We used time-lapse imaging to show that dendrites fail to withdraw upon mutual contact in the absence of UNC-6 signaling. We propose a model in which the UNC-40 (Deleted in Colorectal Cancer; DCC) receptor captures UNC-6 at the tips of growing dendrites for interaction with UNC-5 on the apposing branch to induce mutual repulsion. UNC-40 also responds to dendritic contact through another pathway that is independent of UNC-6. Our findings offer a new model for how an evolutionarily conserved morphogenic cue and its cognate receptors can pattern a fundamental feature of dendritic architecture.
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Mitani S, Hori S, Spencer WC, Miller DM, Chatzigeorgiou M, Smith CJ, Schafer WR, Husson SJ, O'Brien T, Gottschalk A, Feingold-Link E
[
Neuron,
2013]
Sensory neurons adopt distinct morphologies and functional modalities to mediate responses to specific stimuli. Transcription factors and their downstream effectors orchestrate this outcome but are incompletely defined. Here, we show that different classes of mechanosensory neurons in C.elegans are distinguished by the combined action of the transcription factors MEC-3, AHR-1, and ZAG-1. Low levels of MEC-3 specify the elaborate branching pattern of PVD nociceptors, whereas high MEC-3 is correlated with the simple morphology of AVM and PVM touch neurons. AHR-1 specifies AVM touch neuron fate by elevating MEC-3 while simultaneously blocking expression of nociceptive genes such as the MEC-3 target, the claudin-like membrane protein HPO-30, that promotes the complex dendritic branching pattern of PVD. ZAG-1 exercises a parallel role to prevent PVM from adopting the PVD fate. The conserved dendritic branching function of the Drosophila AHR-1 homolog, Spineless, argues for similar pathways in mammals.
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[
Dev Biol,
2010]
Nociceptive neurons innervate the skin with complex dendritic arbors that respond to pain-evoking stimuli such as harsh mechanical force or extreme temperatures. Here we describe the structure and development of a model nociceptor, the PVD neuron of C. elegans, and identify transcription factors that control morphogenesis of the PVD dendritic arbor. The two PVD neuron cell bodies occupy positions on either the right (PVDR) or left (PVDL) sides of the animal in posterior-lateral locations. Imaging with a GFP reporter revealed a single axon projecting from the PVD soma to the ventral cord and an elaborate, highly branched arbor of dendritic processes that envelop the animal with a web-like array directly beneath the skin. Dendritic branches emerge in a step-wise fashion during larval development and may use an existing network of peripheral nerve cords as guideposts for key branching decisions. Time-lapse imaging revealed that branching is highly dynamic with active extension and withdrawal and that PVD branch overlap is prevented by a contact-dependent self-avoidance, a mechanism that is also employed by sensory neurons in other organisms. With the goal of identifying genes that regulate dendritic morphogenesis, we used the mRNA-tagging method to produce a gene expression profile of PVD during late larval development. This microarray experiment identified>2,000 genes that are 1.5X elevated relative to all larval cells. The enriched transcripts encode a wide range of proteins with potential roles in PVD function (e.g., DEG/ENaC and Trp channels) or development (e.g., UNC-5 and LIN-17/frizzled receptors). We used RNAi and genetic tests to screen 86 transcription factors from this list and identified eleven genes that specify PVD dendritic structure. These transcription factors appear to control discrete steps in PVD morphogenesis and may either promote or limit PVD branching at specific developmental stages. For example, time-lapse imaging revealed that MEC-3 (LIM homeodomain) is required for branch initiation in early larval development whereas EGL-44 (TEAD domain) prevents ectopic PVD branching in the adult. A comparison of PVD-enriched transcripts to a microarray profile of mammalian nociceptors revealed homologous genes with potentially shared nociceptive functions. We conclude that PVD neurons display striking structural, functional and molecular similarities to nociceptive neurons from more complex organisms and can thus provide a useful model system in which to identify evolutionarily conserved determinants of nociceptor fate.
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[
Antioxidants (Basel),
2020]
The aim of this study was, firstly, to evaluate the phenol profile of thistle (<i>Cirsium japonicum</i>, CJ) by High performance liquid chromatography-electrospray ionization-mass spectrometry (HPLC-ESI-MS), dried by different methods (90 C hot-air, 70 C hot-air, shade-, and freeze-drying). Secondly, we aimed to evaluate the relationship between phenolic compounds content and antioxidant properties. CJ contained chlorogenic acid, linarin, and pectolinarin. Total phenolic contents of CJ significantly decreased under hot-air-drying condition, especially chlorogenic acid contents in CJ have been reduced by 85% and 60% for 90 C and 70 C hot-air-drying, respectively. We evaluated the protective effect on adrenal pheochromocytoma (PC12) cells and <i>Caenorhabditis elegans</i> using shade-dried CJ, which has the largest phenolic contents and the strongest antioxidant property. CJ-treated PC 12 cells dose-dependently exhibited the protective effects against reactive oxygen species (ROS), while cell viability increases, lactate dehydrogenase release decreases, and ROS formation decreases. Furthermore, CJ has also shown protection against ROS in <i>C. elegans.</i> Consequently, CJ contributed to lifespan extension under ROS stress without influencing the physiological growth.
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[
Worm Breeder's Gazette,
1978]
All eyes are on the newest fashion trend, the Dumpy Look . Pace setting designer I.M. Worm s androgynous wardrobe is all the rage in Paris. Bianca Jagger quips, Tres, tres - Women s Wear Daily writes, Elegans personified - Patti Smith thinks, The punks won t buy it and Craig Russell says, It fits right in with my act . A product of Mutant Isolation, Inc.
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[
International Worm Meeting,
2013]
Self-avoidance, tiling and coexistence are the main mechanisms that enable the best dendritic coverage. C. elegans undergoes aging-associated changes that ultimately lead to decreased functionality of the organism, including its neurological functions. Recent research has shown that the nervous system of C. elegans undergoes changes and alterations during aging including dendritic morphology (Tank et al., 2011). We study dendritic plasticity, aging and spatial dendritic organization of two highly arborized mechanoreceptors in C. elegans, PVD and FLP (Oren-Suissa et al., 2010). PVD dendrites of L4s and young adults show regenerative ability following dendrotomy (laser induced severing of dendrites). Our working hypothesis is that in older ages this ability to regenerate is compromised. Previous studies and our preliminary results indicate that PVD and FLP do not overlap in larval stages (Smith et al., 2010). In addition, dendrites within each bilateral PVD do not overlap through a self-avoidance mechanism (Smith et al., 2012). We found that (1) the coverage fields of the PVD and FLP overlap in adult worms, which indicates coexistence and not tiling. This overlap increases as the worm ages. (2) PVDs show aberrant arborization at the age of 9 days of adulthood. (3) Dramatic increase in self-avoidance defects as animals age. In humans many neurodegenerative diseases as well as generalized cognitive decline are associated with age, aberrant arborization or both (e.g. autism and Alzheimer's disease). However our understanding of how these disorders are triggered and aggravated is scarce. Our research provides an insight into the aging and regeneration process of individual neurons. Oren-Suissa, M., et al. (2010). Science 328, 1285-1288. Smith, C.J. et al. (2010). Developmental Biology 345, 18-33. Smith, C.J., et al. (2012). Nature Neuroscience 15, 731-737. Tank, E.M.H. et al. (2011). Journal of Neuroscience 31, 9279-9288.
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[
Worm Breeder's Gazette,
1980]
[See Figure 1] Already published allelism: Wood et al., 1980:
b117=
b189;
b246 = let- 2.Miwa et al., 1980:
hc57 =
hc62;
hc61 =
hc67. Our global complementation results:
g1 =
g4;
g16 =
g65 =
hc61 =
hc67;
g36 =
hc65;
g23 =
g34 =
hc70 =
b117 =
b189;
g37 =
b246 =
let-2;
b84 =
hc66;
g14 =
g43;
g57 =
b1O. From frequency of multiple alleles we estimate 200-400 genes essential for embryogenesis. Mapping is in progress. We are also doing tsp's, R + H Tests, and cellular defects ( Isnenghi, Cassada, Radnia, Schierenberg, K. Smith, v. Ehrenstein).
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[
PLoS Genet,
2019]
Dendrite growth is constrained by a self-avoidance response that induces retraction but the downstream pathways that balance these opposing mechanisms are unknown. We have proposed that the diffusible cue UNC-6(Netrin) is captured by UNC-40(DCC) for a short-range interaction with UNC-5 to trigger self-avoidance in the C. elegans PVD neuron. Here we report that the actin-polymerizing proteins UNC-34(Ena/VASP), WSP-1(WASP), UNC-73(Trio), MIG-10(Lamellipodin) and the Arp2/3 complex effect dendrite retraction in the self-avoidance response mediated by UNC-6(Netrin). The paradoxical idea that actin polymerization results in shorter rather than longer dendrites is explained by our finding that NMY-1 (non-muscle myosin II) is necessary for retraction and could therefore mediate this effect in a contractile mechanism. Our results also show that dendrite length is determined by the antagonistic effects on the actin cytoskeleton of separate sets of effectors for retraction mediated by UNC-6(Netrin) versus outgrowth promoted by the DMA-1 receptor. Thus, our findings suggest that the dendrite length depends on an intrinsic mechanism that balances distinct modes of actin assembly for growth versus retraction.
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[
Nat Commun,
2013]
Neuropeptides have central roles in the regulation of homoeostatic behaviours such as sleep and feeding. Caenorhabditis elegans displays sleep-like quiescence of locomotion and feeding during a larval transition stage called lethargus and feeds during active larval and adult stages. Here we show that the neuropeptide NLP-22 is a regulator of Caenorhabditis elegans sleep-like quiescence observed during lethargus.
nlp-22 shows cyclical mRNA expression in synchrony with lethargus; it is regulated by LIN-42, an orthologue of the core circadian protein PERIOD; and it is expressed solely in the two RIA interneurons.
nlp-22 and the RIA interneurons are required for normal lethargus quiescence, and forced expression of
nlp-22 during active stages causes anachronistic locomotion and feeding quiescence. Optogenetic stimulation of the RIA interneurons has a movement-promoting effect, demonstrating functional complexity in a single-neuron type. Our work defines a quiescence-regulating role for NLP-22 and expands our knowledge of the neural circuitry controlling Caenorhabditis elegans behavioural quiescence.
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[
International Worm Meeting,
2015]
In eukaryotes, multiple replication origins initiate DNA synthesis bidirectionally. Half of the genome is duplicated discontinuously on the lagging strand in the form of Okazaki Fragments (OFs). Previously we have purified and sequenced OFs from S. cerevisiae, and have demonstrated their utility in mapping genome wide DNA replication patterns (1,2). Despite many years of research, the precise location efficiency and abundance of replication origins in metazoa remains elusive. Here we capture and sequence OFs from C. elegans and generate a genome wide map of DNA replication.We use a DNA ligation compromised genetic background and purify single stranded OFs from developing embryos. Aligning sequence reads of OFs to the C. elegans genome reveals a characteristic strand bias at specific sites that are approximately 50-100 Kb apart. The complementary enrichment of Okazaki fragments to either the Watson or Crick strands is the hallmark of a replication origin. Additionally we have found that origins of replication in C. elegans are correlated with transcriptionally active regions of chromatin. Using the histone modification data set of modENCODE we found a strong association between replication start sites and acetylation of Histone H3 lysine 27 (H3K27ac). Acetylation of H3K27 is a chromatin mark characteristic of gene enhancer elements. Finally, we show that a partial depletion of CBP/P300 the sole histone H3 acetyltransferase (HAT) responsible for H3K27 acetylation has a profound effect on DNA replication. Our data indicate that the DNA replication program is likely plastic and is matched with the transcriptional program. Ultimately our data show, both DNA replication and gene transcription are likely regulated by similar epigenetic processes. 1. Intrinsic coupling of lagging-strand synthesis to chromatin assemblyDuncan J. Smith& Iestyn Whitehouse. Nature, 20122. Quantitative, genome-wide analysis of eukaryotic replication initiation and termination.McGuffee SR, Smith DJ, Whitehouse I. Mol Cell, 2013.